Self-organizing technology for disaster response and recovery

ABSTRACT

People facing emergencies, such as disasters, may not receive external assistance in a timely manner, instead having to rely on themselves for critical or extended periods. A system including emergency response containers providing both for organizational structure, including a method of assigning roles to available individuals, and task domain knowledge for organizational elements, namely the people facing and experiencing the emergency, allows for organic emergency response and eases transition to and effectiveness of external professional emergency response providers. In some embodiments the system is modular and adjustable for different situations.

CROSS REFERENCE TO RELATED APPLICATION

The present application is a continuation-in-part of U.S. patent application Ser. No. 13/523,504, filed Jun. 14, 2012, the disclosure of which is incorporated by reference herein.

BACKGROUND

The present invention relates generally to emergency response systems, and more particularly to systems and methods for organic organized emergency response.

Current disaster preparedness plans and programs have five, or more, well-known deficiencies.

First, current emergency response capacity is not sufficient to handle the major disasters. The vast majority of current response capability depends on usable infrastructure, particularly navigable roads. Our hospitals are sized to handle day-to-day loads, not catastrophic loads, and not disasters where their own staff is personally affected as well. In seismic disasters immediate responses are required in non-medical areas such as fire control, evaluation of structural damage, freeing trapped and pinned victims, search and rescue, identifying and mitigating gas leaks, sanitation, first-aid, and the management of safe water and food resources. Medical triage and first aid would also be required. This will all happen in neighborhoods cut-off from logistics and reliable communications. People need to have methods to sustain themselves, and help themselves, until local, State and Federal emergency services are fully operational.

Second, civilians only rarely adequately prepare themselves and their homes for disasters, despite the flood of information and encouragement from the government.

Third, most immediate disaster response and recovery efforts are handled by residents in the affected area, while by far the largest investment in preparedness and response resources are for National and State responders that will move into a disaster area only days or weeks or months after a disaster.

Fourth, the typical response plan assumes the importing and implementation of a new disaster response Command & Control (C&C) system into the affected area. The locals, however, may not, and likely won't, understand the purpose, procedures, and vocabulary of responder's C&C system. On the other hand, the professional responders likely won't understand the survivor's impromptu organizational structure, vocabulary and processes. Any impromptu organizational structure may also have difficulties in formation and execution, as, for example, frictions between possible participants may result in decreased participation and/or efficiencies. These frictions may arise as there may be disagreements as to the form of organization, the contours of functional roles within the organization, and who will fill those functional roles. Further inefficiencies will also arise simply due to the time to be taken in arriving at organizational structure and roles. In addition, the members of an impromptu organization simply may not know how to respond to what to them may be a novel and unexpected situation outside the realm of their normal experience.

Finally, community social organizations are usually intact and functional after a disaster. They have tremendous value for organizing relief efforts, but are usually ignored by responders coming from the outside who wish to establish their own organizational structure.

In Los Angeles it is anticipated that an earthquake that will disrupt physical access to the affected area by damaging roads and communications infrastructure will hit California in the near future. The massive increase in demand and lack of infrastructure will overwhelm emergency services. As a result, the average resident will not have access to emergency services for up to two weeks. The CERT (Civilian Emergency Response Training) concept was developed and implemented by the City of Los Angeles Fire Department (LAFD) in 1985 to provide some basic training in disaster survival and rescue skills in order to improve the ability of citizens to survive until professional responders could arrive. They recognized that citizens would very likely be on their own during the early stages of a catastrophic disaster. CERT also recognizes that there are insufficient civilian volunteers in the case of a major disaster.

The city of Los Angeles' Civilian Emergency Response Training (CERT) program states that after a major disaster neighborhoods are expected to be on their own for up to two weeks because of damaged infrastructure and lack of resources. Should weapons of mass destruction (WMDs) ever be used, professional responders would clearly be overwhelmed and civilian volunteers would be called upon to fill the gap for immediate and short term needs. The CERT program trains a few thousand civilian volunteers per year to respond to natural disasters, but even LA's CERT officials recognize that there are insufficient trainees for a major disaster. And in any case trained civilians and first-responders would have to choose between performing their duties, teaching others, or managing neighborhood rescue efforts.

BRIEF SUMMARY OF THE INVENTION

Aspects of the invention provide a system for implementing a structured level response to an emergency. In some aspects the system includes a distribution system including discrete separable distributable items having information. In some aspects the information of the items having information is presented and/or presentable in a quantized sequence for formation of a structured organization for responding to the emergency. In some aspects the items having information are separated into items for functional units of the organization. In some aspects the items having information are grouped by a function to which each item of information relates.

One aspect of the invention provides a system for use in responding to emergencies, comprising: a plurality of card packs, each card pack defining a role in a hierarchical organization, each role relating to tasks to be performed by an individual in responding to an emergency, at least some of the tasks including a task of distributing at least one card pack to another; and a box containing the plurality of card packs.

Another aspect of the invention provides a system for use in responding to emergencies, comprising: a plurality of items having information, each of the items having information relating to a organized local response to an emergency, the information of the items of information providing information as performance of emergency related tasks; and a container for holding the plurality of items of information.

Another aspect of the invention provides a method of providing for localized response to emergency incidents, comprising: determining an area suspected to be subject to an emergency; determining a type of emergency to which the area is suspected to be subject; determining a plurality of roles for local responders to the emergency, at least one of the roles being that of an incident commander; preparing information for the conduct of each of the roles; placing the information onto items; placing the items into a plurality of containers; and placing the plurality of containers in the area suspected to be subject to the emergency.

Another aspect of the invention provides a system for use in responding to emergencies comprising a plurality of items configured to provide information relating to an organized local response to an emergency, each of the plurality of items being provisioned for a particular role within an organization configured for providing the organized local response to the emergency, and a plurality of identification items, each to identify an individual fulfilling the particular role in the organization. In some aspects the item configured to provide information is configured to receive information from a remote location, for example through wireless communications, and to provide information using the received information.

Another aspect of the invention provides a system for use in responding to emergencies, comprising: a plurality of packages of information, each package of information including information defining a different role in a hierarchical organization, each role relating to tasks to be performed by an individual in responding to an emergency, at least some of the tasks including a task of recruitment of others to perform subsidiary roles in the hierarchical organization by way of distributing packages of information to others so as to form the hierarchical organization, the plurality of packages of information including an incident commander package of information, the incident commander package including a plurality of tokens allowing for access to the information of the packages of information; a server configured to transmit the plurality of packages of information to at least one electronic communication device.

These and other aspects of the invention are more fully comprehended upon review of this disclosure.

BRIEF DESCRIPTION OF THE FIGURES

FIG. 1 illustrates a disaster response enablement system in accordance with aspects of the invention;

FIG. 2 illustrates a further view of the system of FIG. 1;

FIG. 3 illustrates a further view of the system of FIG. 1;

FIG. 4 illustrates a section canister of the disaster response enablement system of FIG. 1;

FIG. 5 illustrates example contents of the system of FIG. 1, including contents of a section canister of FIG. 4;

FIGS. 6-10 illustrate an example cards of a disaster response enablement system in accordance with aspects of the invention;

FIG. 11 is a flow chart of deployment and use of systems in accordance with aspects of the invention; and

FIG. 12 is a flow chart of use of systems in accordance with aspects of the invention.

FIG. 13 illustrates various aspects of a system including electronic devices for use in providing a localized response to emergency incidents in accordance with embodiments of the invention.

FIG. 14 is a flow diagram of a process relating to operation of a system including electronic devices for use in providing a localized response to emergency incidents in accordance with embodiments of the invention.

DETAILED DESCRIPTION

An embodiment of the invention provides a self-contained just-in-time management and training system in a box or box-like form. In some embodiments the system is a disaster response enablement system. In one embodiment this is a rugged box, approximately one to three foot cube, which contains items having information, with the information such that recipients of the information can be informed of emergency related tasks to undertake in a step-by-step manner. In various embodiments each item having information is separable from others of the items having information, and each item having information includes specific information for performing a particular role in an organization for responding to an emergency, including, for various roles, recruitment of additional individuals to perform subsidiary roles within the organization. Accordingly, in some embodiments the items of information define functional roles in an organization, provide information as to how to perform those functional roles, and provide information as to how to form the organization and a method of doing so in a somewhat non-contentious manner.

In some embodiments the items having information are in the form of printed material, for example printed cards, or printed scrolls, of paper, cloth, plastic, or polyester, for example Mylar. In some embodiments the items having information are audio, video, or audiovisual players, with, for example, information being stored on electronic or computer readable storage medium, non-transitory in various embodiments, of the players. The use of such players may be beneficial in that any requirement for literacy to be able to comprehend the information provided may be reduced or eliminated. In addition, some players, for example players in the form of a laptop, tablet, smartphone, or similar computer device, may be able to store and provide enhanced or reference materials to supplement or explain the information. In some embodiments the items having information comprise radio frequency (RF) or other wireless communication devices, which may include speakers and/or displays, and in some embodiments such devices may have information only in a figurative sense, with information communicated to the device at times of use or potential use.

In some embodiments the information is the information of the proven CERT manuals, with the information for example printed on weatherproof pocket-sized cards. These cards may be grouped and bound into functional packs such as “Organizing People”, “Water Purification”, “Sanitation”, “Search Operations”, “Rescue Operations”, “Disaster Psychology”, and “Disaster Medical Operations”. In other embodiments the box contains cards particular to specific expected emergency events, for example evacuation of a building or a campus, or a lock-down of same. The information is organized and presented so that first-time readers without any previous knowledge or training in disaster responses can perform the appropriate tasks step-by-step. The card's advice would be congruent with other emergency incident policies and procedures, for example, depending on the expected emergency, the National Incident Management System, local emergency procedures, or facility emergency procedures. These boxes can be pre-deployed in a variety of locations or dropped to the users or a locality of potential users during an incident.

Also included in the boxes in some embodiments are role or function identification vests or other wearable visible indicators. The wearable visible indicators identify a role, function, or duties of the wearer in the context of an organized hierarchical response to an emergency. The wearable visible indicators are, preferably, items of clothing that may be considered “one-size-fits-all,” with any one item generally wearable by a majority of the adult population or generally wearable by persons having a body size over a large range of normal adult body sizes. For example, vests, caps, scarves, or other items of clothing are often wearable by those across a range of body sizes, or are adjustable to allow for such wear.

The items having information, in some embodiments having information, even if only temporarily in some embodiments, through reception of the information from a remote source, provide information to allow, inform, and guide untrained individuals in forming a hierarchical organization to provide local emergency response efforts, and how to perform tasks associated with positions in the organization. The information provided, in effect, provides instructions as to formation of the organization and roles and tasks to be performed by members of the organization. In various embodiments the form of the organization, the functional roles of members of the organization, and the tasks to be performed correlate to those expected to be used and/or performed by external professional responders, easing emergency response from local initially untrained responders to external professional responders. In some embodiments each item having information is specific to a particular role for a hierarchical emergency response organization, with the information of each item providing information as to how to perform the role, including how to recruit others to perform subsidiary roles. For example, a first item having information may provide instructions as to how to perform an incident commander role, and include instructions to provide others with items having information so that the others may accept and perform subsidiary roles. The items having information provided to those accepting the subsidiary roles may also include instructions to provide still further items having information to still others for further subsidiary roles.

With, for example, the items having information being cards, the first person to open the box would find a note like: “Since you opened this box, you are now the Incident Commander until someone with superior training agrees to replace you. Put on the Incident Commander Vest. Do what is explained in the cards packed with the vest. You can do this.” One of the first tasks indicated by information of the cards would be to enlist others to each take a stack of cards, wear a corresponding vest, and start performing the instructions in their card pack.

Such boxes, or other holders, are an inexpensive and immediate way to delivery effective, useful, and highly visible support to the most important first responders at any disaster: the affected civilian population. The information is provided just-in-time and can be packaged with different card decks for particular disaster or emergency types and locations. The cards are preferably designed for rapid assimilation and to be immediately useful; literally right out of the box. In some embodiments the boxes, or other holders, may include audio, video, or audiovisual devices including memory storing information for a plurality of different emergencies, or including communication capabilities, for example wireless communication capabilities, for receiving such information, and possibly storing in memory, and displaying or otherwise presenting such information upon or after the occurrence of a specific emergency, for example. Such an approach may be useful in that it allows for determination of appropriate information to include close to or even after occurrence of an emergency.

FIG. 1 illustrates a disaster response enablement system in accordance with aspects of the invention. The system of FIG. 1 is in the form of a box. The box includes a large bottom 111 portion and a top 113. A clasp 115 secures the top to the bottom when the top is in a closed position. Lifting points 117, for example in the form of handles, are arranged on the top and sides of the bottom of the box. A title and instructions for a person finding the box are also on one side of the box. The title may for example indicate that the box is an emergency response kit, and the instructions for example may instruct the finder to open the box and follow the instructions therein.

FIG. 2 shows the box with the top in an open position. As illustrated in FIG. 2, the top of the box is coupled to the bottom of the box by hinges 211. A tray (311 in FIG. 3) has a top 213 which may be seen about the top of the interior of the box. The tray top includes instructions for the finder of the box, with the instructions for example labeled “To Finder.”

FIG. 3 shows the box with the tray (which may be considered a commitment barrier), raised out of the box. The tray may be raised, for example, using a handle 313 coupled to the tray. Raising the tray exposes a plurality of canisters, for example a canister 315, within the box.

FIG. 4 illustrates a one of the canisters 411 raised out of the box. The canister in the embodiment of FIG. 4 is a parallelpiped, providing a convenient form-factor for storing in the larger parallelpiped of the box. The canister includes a handle 413 for ease of lifting out of the box. Also, the canister, like the tray, includes an instruction card 415 for a person selecting or being provided the canister.

FIG. 5 illustrates example contents of the tray 313 of FIG. 3 and the canister 411 of FIG. 4. The tray of FIG. 2 includes a card, which may be termed an activation card 511 (with both front and back of the activation card illustrated in FIG. 5) with instructions for the finder of the box, a vest 513 (also both front and back illustrated) identifying the function of the individual for that individual to wear, and a plurality of cards 515 to help instruct the individual how to perform the functions which it is hoped the finder of the box will perform. Similarly, the canister includes a card 517 with instructions for the person selecting or being provided the canister, a vest 519 to identifying the function of the person for that person to wear, and a plurality of cards 521 to help instruct the person how to perform the functions which it is hoped the person will perform.

FIG. 6 shows text of a sample card that may be provided with the tray. The card provided with the tray provides instructions as to how to begin responding to an incident. For example, the instructions may provide instructions as to how to begin to utilize the contents of the box, the instructions may provide instructions as to the role expected of the person finding the box, and/or the instructions may provide instructions as to the duration for which the role is to be assumed. In general, the individual is an incident commander for responding to an incident, at least until another person, for example another person with equal or superior training/capability, agrees to be the incident commander, and the duties of the incident commander may include recruiting others to perform various tasks in responding to the incident.

FIG. 7 shows text of a sample card of the plurality of cards that may be provided with the tray. The sample card may, for example, provide further instructions relating to the role the individual is to play in responding to an incident. For example, the sample card may provide instructions as to how the incident commander may organize others whom the incident commander recruits to provide assistance.

FIG. 8 shows text of a sample card showing instructions for a person selected for one of the canisters, with FIG. 9 showing text of more detailed instructions for such a person. Similarly, FIG. 10 shows text of a sample card showing instructions for a further person who may assist the person selected for one of the canisters.

FIG. 11 is a flow diagram of an example deployment and use scenario for an incident response system in accordance with aspects of the invention. In block 1111 an incident occurs and is categorized by authorities, for example governmental or non-governmental disaster planning or response personnel. The incident, for example, may be an earthquake, a large destructive weather event, civil unrest, or other event or events severely impacting normal provision of services, particularly safety or supply related services.

In some embodiments, however, in block 1111 there may only be concern that an incident may occur. For example, there may be concern that an incident such as those discussed above may occur. Alternatively, there may be a concern that a sinking of a ship may occur, or a building may need to be evacuated due to a fire, or a variety of other possible incidents may be foreseen.

In block 1113 card packs are selected and placed into disaster response enablement systems, for example the boxes previously discussed herein. The card packs include instructions for localized organized response to the incident. Different incidents may be suggestive of different responses, for example a desired response to a communicable epidemic may differ from a desired response to a hurricane or an earthquake, and card packs may vary dependent on the incident.

In block 1115 the boxes are deployed to affected locations, for example affected neighborhoods or buildings. The boxes may be deployed by, for example, helicopter, or by other means.

In block 1117 an individual may happen upon a box, either by randomly encountering the box or, perhaps more likely, by seeing the box deployed, with the individual opening the box, or possibly by being preinformed as to the location of the box and the desirability of the individual utilizing the box in the event of an incident. Assuming the individual opens the box and undertakes the duties requested by the box, the individual becomes an incident commander for the neighborhood or locality, and provides a seed of a local organized response to the incident. In block 1119 the incident commander deploys function packs, for example in the form of canisters, to other people. The function packs provide instructions for these other people to perform various functions in locally responding to the incident. In many cases the function packs themselves instruct the other people to recruit still further people to assist in responding to the incident. In blocks 1121 a-n the various functions prescribed or suggested by the function packs begin, with the functions being performed by the other people and possibly still further people. As the still further people are, by this arrangement, in a reporting structure to the other people, and the other people are in a reporting structure to the incident commander, a local organized response to the incident may be provided.

FIG. 12 is a flow diagram of a use scenario for an incident response system in accordance with aspects of the invention. The system may include, for example, a box and its contents such as discussed herein. In most embodiments the use scenario begins after an incident, for example a civil emergency as may result from an earthquake or other disaster, or a building evacuation, either as part of a drill or due to local circumstances such as a fire.

In block 1211 a first person opens the box. The first person may have come across the box through chance, or in some embodiments the box may have been specifically provided to the first person, either before an incident or after an incident.

The box includes a variety of materials, including an activation card about a top of the interior of the box. The activation card provides instructions to the first person as to begin use of the contents of the box. In block 1213 the first person reads the activation card. The activation card may, for example, include text similar to or the same as the text of the card of FIG. 6, and the card may instruct the first person to wear a vest, included in the box, identifying the first person as an incident commander, and to perform the instructions for additional cards provided in the box for the incident commander. In block 1215 the first person, following instructions of the card, puts on the incident commander vest and becomes the incident commander.

In block 1217 the first person accesses a plurality of additional packages within the box. The additional packages may be in the form of canisters, for example as previously discussed, and the canisters may be accessed by removal of a tray, or commitment barrier, blocking access to the canisters. For purposes of example, it may be assumed that the box includes four canisters, and that instructions to the incident commander include instructions for the incident commander to deploy the canisters to other people. Accordingly, in blocks 1219 a-d first through fourth canisters are provided to, or taken by, a second person, a third person, a fourth person, and a fifth person, respectively. In blocks 1221 a-d each of the second, third, fourth, and fifth persons puts on a function specific vest provided in their respective canister, and becomes the chief for that function, and begins to perform the tasks allotted to that function for responding to the incident.

The system applies self-organizing principals of command and control for civilian responders. The cards use the natural bottom up volunteer response to emergencies, enhanced with proven CERT or CERT type information and techniques. There is no reliance on external bureaucracies or imposed command-and-control systems. Nor is there an assumption that any pre-disaster support systems will be still functional.

The operational benefit will be faster and more effective response to national and local disasters and WMD strikes. This includes fewer post-incident casualties, better use of civilian resources, and easier integration of and communication between City, State, Federal, and Military rescue efforts and post-disaster neighborhood leadership.

Training material for civilians for a variety of disasters and incidents already exists and has been thoroughly tested with thousands of civilian volunteers in CERT training classes. Developing “drop in” decks to work for diverse cultures, languages, different incidents, and locations nation-wide is a tremendous challenge. The cards must help untrained civilians work effectively in the middle of a disaster.

The boxes help mitigate all five major flaws in the current “top-down” disaster response paradigm at a small fraction the cost of those programs.

Quantitative Improvements provided in some embodiments:

-   -   There will be more responders, acting more appropriately at         disaster incidents hours or days or weeks earlier than would be         the case without the system.     -   There will be fewer preventable injuries to citizen responders.     -   There will be fewer preventable deaths to citizens in the         affected area.

Qualitative Improvements provided in some embodiments:

-   -   The boxes work without relying on civilian preparation, training         classes, previously acquired resources, or the efficient         functioning of newly imposed bureaucracies and organizational         structures in a disaster area.     -   Citizen responders will have better information on necessary         tasks. Their information will be better organized and directly         actionable.     -   Citizen Volunteers will be self-organized, resulting in more         efficient work and less wasted effort. Their work and response         will be more consistent and appropriate to each situation and         disaster.     -   The organically formed citizen responders will work better with         professional responders in terms of information flow and         transfer of responsibilities.     -   Both the reality and the perception of competent immediate         civilian disaster relief will improve morale and civilian         resilience while reducing panic and leadership issues in the         affected area. This will lessen the demands on other disaster         response resources, and enable more efficient and appropriate         use of professional, government, and military disaster response         resources.

In some embodiments card decks, or other discrete information providing devices, could include information covering seven complete CERT manual training chapters, or information of some or all of those chapters. The relevant CERT training manual chapters may be:

-   -   Basic Disaster preparedness: Food storage, Water Storage. Water         Purification, Sanitation, and Basic First Aid     -   Fire Safety: Fire prevention, and Fire Fighting     -   Light Search and Rescue: Situation Size-up, Search Operations,         Rescue Operation, Leveraging and Cribbing Operations, and         Surveying and Marking Buildings     -   Organizing People: Assigning and Tracking People, Necessary         Tasks, How to Organize and Deploy Volunteer Resources, Rescuer         Safety, Documentation, and Communication Between Command Levels         & Groups     -   Disaster Psychology: Team Well Being, and Working with         Survivor's Trauma.     -   Disaster Medical Operations I: Recognizing Life Threatening         Conditions, and Triage     -   Disaster Medical Operations II: Public Health (hygiene and         sanitation), Disaster Medical Treatment Areas, Patient         Evaluation, and Basic Treatment

In some embodiments:

-   -   Card deck designs include designs for additional threats (e.g.         WMDs), incidents (e.g. nuclear plant accidents), natural         disasters (e.g. hurricanes, winter storms), and additional         languages (e.g. Spanish, Chinese) not included in CERT Manuals.     -   Card decks are supplemented or replaced by audio, video, or         audiovisual devices with information in storage, or which may         have communication capabilities to receive and display or         otherwise present the information, and in some embodiments store         the information.

The cards preferably may be understood by the vast majority of US residents in a variety of disaster situations with no previous training. The cards preferably effective mobilize community resources in the time of a disaster.

In some embodiments card decks are based on the existing, proven content of the CERT manuals, edited and formatted for use in card decks and by users who are completely unfamiliar with the content. In some embodiments additional instructions and illustrations are used to enable out-of-the-box use without benefit of any pre-training by the responders. Physically, the boxes and the cards preferably are durable, strong, and waterproof to survive the disasters they are intended to mitigate, and impact resistant enough to be dropped from helicopters.

The boxes themselves are, in some embodiments pre-deployed in locations where they are both safe over a long period of time, but then immediately accessible when needed. The boxes themselves may be relatively inexpensive, thus permitted redundant copies to be placed in many locations.

In some embodiments a localized response to emergency incidents may be provided through use of video or audiovisual players in the form of electronic devices having communication capabilities. In some such embodiments the electronic devices may be in the form of smartphones, for example, although in various embodiments tablet computers, laptop computers or similar devices may be used. In such embodiments the information of the instruction cards may be provided and stored electronically, for example on the smartphones or other electronic devices. In some embodiments electronic codes, or tokens, may be used in providing permissions for potential responders to receive and/or use the information, depending on the embodiment. The electronic codes, or tokens, may be considered to provide a barrier to accessing the information.

In some embodiments the information of the cards is initially stored on a server. In some embodiments the information is downloaded to potential responders prior to an incident such as an emergency, in some embodiments the information is downloaded to some potential responders, for example potential incident commanders, prior to an emergency, and downloaded to other responders during the emergency. In some such embodiments the information may be downloaded to electronic devices of pre-identified incident commanders, with the incident commanders then causing their electronic devices to transfer some of the information to electronic devices of additional responders, either before or during an emergency. In some embodiments the information may be downloaded to electronic devices of pre-identified responders. In some embodiments the information may be downloaded to electronic devices of individuals without restriction.

In various embodiments access to the information on the electronic devices may only be available if the electronic device has or is provided a particular code, or token. In some such embodiments the information is not accessible absent use of a code, or token. The code, or token, for example, may be provided to individuals by a police department, fire department, or other governmental agency prior to occurrence of the emergency. In some embodiments the codes, or tokens, may only be so provided to potential incident commanders, with the incident commanders providing the codes, or one or some of the codes, to other individuals during occurrence of the emergency.

In some embodiments use of the tokens to access the information triggers the electronic devices to report activation of a role in the hierarchical organization, along with an identification of the individual fulfilling that role and contact information for that information. In some embodiments the reporting is provided to the electronic device of the incident commander for the hierarchical organization, in some embodiments to the server initially storing the information, or to some other server. In various embodiments the incident commander electronic device, the electronic devices of all of the responders, and/or the server are configured to generate and/or maintain an organizational chart of the hierarchical organization, with identities and, in some embodiments contact information, for the responders. In some embodiments the server, or one, some, or all of the electronic devices in some embodiments, may be configured to distribute the organizational chart to the electronic devices of the responders, or at least one or some of them, to allow the responders to contact one another. In some embodiments the server may distribute the organizational chart to other devices, for example devices of those outside the hierarchical organization, to allow others to contact the responders. In some embodiments those outside the hierarchical organization may be governmental entities charged with responding to emergencies or assisting in responding to emergencies.

In some embodiments a system for use in responding to emergencies uses cell phones or portable computing devices capable of communications with each other. A permission, provided by a code or piece of information from an appropriate authority such as a Fire Department or Police Department to an individual may allow the individual to start activation of an incident response system on a cell phone or portable computing device. This activation may be performed by one or more laymen in an area affected by the incident.

In some embodiments a plurality of electronic information packages, each including an activation information packet and a set of a plurality of electronic information packets, may be downloaded from central source, for example a server, or by transfer between cell phones. Each of the electronic information packages may define a different role in a hierarchical organization, each role relating to tasks to be performed by an individual in responding to an emergency. In some embodiments at least some of the tasks including a task of recruitment of others to perform subsidiary roles in the hierarchical organization by way of distributing electronic information packages to others so as to form the hierarchical organization.

In some embodiments the plurality of packages include an incident commander electronic information package. The incident commander package may include an incident commander activation code, or token, and electronic instruction packets defining tasks to be performed by an emergency incident commander. In some embodiments at least one of the tasks is recruitment of others to perform subsidiary roles in the hierarchical organization.

In some embodiments data codes, or tokens, are required to unlock the plurality of packages for use on the cell phones or portable communication devices. In some embodiments different codes, or tokens, are used for electronic packages for different roles in the hierarchical organization. In some embodiments the incident commander package may include codes, or tokens, for all of the subsidiary roles in the organization, and in some such embodiments the cell phone or portable communication device of the incident commander may be configured, for example by the electronic package, to transfer appropriate codes to the devices of those accepting subsidiary roles in the hierarchical organization. In some embodiments the packages for the subsidiary roles may also include the codes, or tokens, for roles that are, in turn, subsidiary to those subsidiary roles, and in some such embodiments the cell phone or portable communication device of those in subsidiary roles may transfer appropriate codes to the devices of those accepting further subsidiary roles in the hierarchical organization.

In some embodiments each of the electronic information packages additionally contains information for at least one display for a display screen identifying a user as a function leader in the hierarchical organization and a drawing and instructions for creating an insignia that can be worn to identify the user and their functional role. In some embodiments the information for at least one display for the display screen comprises a plurality of displays for the display screen, each of the plurality of displays identifying a function of the role of the user in the hierarchical organization.

If sufficient communications are available, the packages may configure the cell phones or portable communication devices to periodically update/report a current status of the organizational chart (with, in some embodiments, the names and phone numbers of the occupants for each function) to an original authorizing authority (such as the Fire Department or Police Department), for example for display of all such temporary local hierarchical organizations.

FIG. 13 illustrates various aspects of a system including electronic devices for use in providing a localized response to emergency incidents in accordance with embodiments of the invention. In FIG. 13, a server 1311 stores information of the cards. In some embodiments the information of the cards may be considered to be stored in packages, with each package including information of cards for a particular role in a hierarchical organization for responding to an emergency. In some embodiments, codes, or tokens, are associated with each of the packages. In various embodiments the codes are utilized to allow for access to information of the packages. In some embodiments the server also stores the codes.

The server distributes the packages over a network 1313 to electronic devices 1315 a-e. In some embodiments the network comprises the Internet, in some embodiments the network includes both wired and wireless components, and in some embodiments the network is generally a data and/or telecommunications network. In some embodiments the electronic devices includes one, some, or all of smartphones, tablet computers, laptop computers, and/or other computer devices. As illustrated in FIG. 13, the electronic devices include smartphones 1315 a-d and a laptop computer 1315 e. In some embodiments the server is configured to distribute a package, or multiple packages, to an electronic device after receiving a request from that electronic device for the package(s). In some embodiments the server is configured to distribute the package(s) if the request is accompanied with a code, or token, for the package(s) from the electronic device. In some embodiments the package transmitted by the server is a package for a particular role. In some embodiments the package(s) transmitted by the server are the package for the particular role and any packages for any roles subsidiary to the role in the hierarchical organization. In some embodiments the server transmits packages for all the roles to a single electronic device for any hierarchical organization, for example the electronic device for an incident commander in that hierarchical organization. In some embodiments the server is configured to transmit the packages, or some of them, only after the server receives an indication that an emergency or similar incident has occurred.

The electronic devices are configured, for example by program instructions, to receive the packages, and to display the information of the packages. In some embodiments the electronic devices receive the packages from the server. In some embodiments some of the electronic devices receive the packages, or a particular package, from another electronic device. For example, in FIG. 13, electronic device 1315 b may be in communication with electronic device 1315 a, with electronic device 1315 b receiving a particular package from electronic device 1315 a. In some embodiments electronic device 1315 a may be, for example, an electronic device of an incident commander, and electronic device 1315 b may be, for example, an electronic device of a user who has accepted a role subsidiary to that of the incident commander. In some embodiments the information of the packages is displayed on a display screen of the electronic devices. In some embodiments the displays include a plurality of displays, and in some such embodiments each of the displays may correspond to a card, for example as discussed above.

In some embodiments the electronic devices are only configured to display the information of the packages if the electronic devices have the code, or token, allowing for access to the information of the packages. In some embodiments the electronic devices may be provided the codes, or tokens, by a governmental entity, for example a police department or fire department, for example prior to existence of an emergency. Such may be beneficial in allowing the police department or fire department to consider qualifications of individuals prior to commencement of an emergency. However, in various embodiments only codes, or tokens, for a role of an incident commander may be so pre-screened, with the incident commander responsible for locating individuals to accept the subsidiary roles. Further, in some embodiments tokens may be distributed by the server upon request, for example during existence of an emergency.

In some embodiments the packages, or program instructions associated with the codes, may include program instructions for determining that a user associated with an electronic device has accessed information of the package, indicating acceptance of a one of the roles, or that the user has accepted the one of the roles. The program instructions may further include program instructions that transmits, in response to the determination that the user accepted the role, an indication of the accepted role, and in some embodiments identifying and/or contact information for the user. The transmission may be to other electronic devices of users in that hierarchical organization, for example the electronic device of the incident commander, or to the server, variously in various embodiments.

The server, and/or the electronic devices in various embodiments, may be configured to prepare information of organizational charts for each hierarchical organization (depending on circumstances, different locales may each have their own hierarchical organization for any particular emergency). In some embodiments the information of the organizational charts indicates roles filled in the hierarchical organization and, in various embodiments, some or all of an identifier for individuals in those roles and/or contact information for those individuals. In some embodiments the server and/or electronic devices are configured to distribute the information of the organizational chart to electronic devices of users filling roles in the organizations, for example to allow the members of the organization to communicate with one another, and/or to entities such as governmental entities that may be tasked with responding to the emergency.

FIG. 14 is a flow diagram of a process relating to operation of a system including electronic devices for use in providing a localized response to emergency incidents in accordance with embodiments of the invention. In some embodiments the process is performed by a system, for example the system of FIG. 13. In some embodiments the process, or portions of the process, is performed by a server, for example the server of FIG. 13. In some embodiments the process, or portions of the process, is performed by one or more electronic devices, for example one or more of the electronic devices of FIG. 13. In some embodiments the process is performed by one or more processors, for example as configured by program instructions.

In block 1411 the process distributes codes, or tokens. The codes, or tokens, may be considered a barrier to access information of packages of information for various roles in a hierarchical organization for responding to an emergency. In some embodiments the codes, or tokens, provide access to information of the packages. In some embodiments the codes, or tokens, include program instructions and associated data that, in addition to allowing access to the information, cause electronic devices to communicate information regarding acceptance of a role to other electronic devices or servers. In some embodiments the codes, or tokens, are provided to individuals who may, or are, taking roles in the hierarchical organization. In some embodiments the codes, or tokens, are provided by a governmental entity, for example a police or fire department, and in some embodiments this is accomplished prior to an emergency. In some embodiments the codes, or tokens, are provided to electronic devices by the server. In some embodiments the codes, or tokens, are provided to an electronic device by another electronic device. For example, in some embodiments a smartphone of an incident commander may provide the code, or token, to an electronic device of another individual accepting a role subsidiary to that of the incident commander.

In block 1413 the process distributes packages. In some embodiments the packages contain information of the cards, discussed above. In some embodiments each of the packages contain information for display of functions of particular roles in the hierarchical organization. In some embodiments the server distributes the packages over a data and/or telecommunications network to electronic devices, for example after receiving a code for the package from the electronic device in some, but not all, embodiments. In some embodiments the server distributes the packages to a one of the electronic devices, for example an electronic device of an incident commander, with the electronic device of the incident commander distributing packages to electronic devices of others accepting roles subsidiary to that of the incident commander. In some such embodiments, the process may also return to operations of block 1411, with the electronic device of the incident commander also distributing codes, or tokens, for accessing the packages to the electronic devices of the others.

In block 1415 the process allows for access to the information of the packages by the electronic devices. In some embodiments the process allows for access to the information of the packages by the electronic devices if the electronic devices have, or are provided, a code, or token, indicating access to the information should be allowed. Further, in some embodiments in block 1415 the process also performs further operations in response to allowing for access to the information. For example, in some embodiments the process also transmits an indication that access has been allowed, which for example indicates that a role has been accepted by a user of the electronic device. In such embodiments the electronic device may transmit an indication that the role has been accepted, and information regarding the user who has accepted the role. In some embodiments the information regarding the user who has accepted the role may include one, some, or all of a name of the user who has accepted the role, the role accepted, and/or contact information (for example one, some, or all of address, email address, phone number) of the user. In some embodiments the information is transmitted to another electronic device, for example that of the incident commander, and/or a server.

In block 1417 the process updates information of an organizational chart of the hierarchical organization. In some embodiments the process also distributes the information of the organization chart, for example to members of the organization and/or governmental entities with responsibility for responding to the emergency. In some embodiments the server updates the organizational chart with the information regarding role acceptance and users who have accepted roles. In some embodiments the electronic device of the incident commander performs the update of the organization chart. Similarly, in various embodiments the server and/or the electronic device of the incident commander distributes the information of the organizational chart.

The process thereafter returns, it being recognized that in various embodiments the process may perform operation of the various block in various orders, and re-perform operations of various blocks at various times as well.

Accordingly, aspects of the invention provide for local, organized disaster response. Although the invention has been described with respect to various embodiments, it should be recognized that the invention comprises the claims supported by this disclosure, and their insubstantial variations. 

1.-16. (canceled)
 17. A system for use in responding to emergencies, comprising: a plurality of packages of information, each package of information including information defining a different role in a hierarchical organization, each role relating to tasks to be performed by an individual in responding to an emergency, at least some of the tasks including a task of recruitment of others to perform subsidiary roles in the hierarchical organization by way of distributing packages of information to others so as to form the hierarchical organization, the plurality of packages of information including an incident commander package of information, the incident commander package including a plurality of tokens allowing for access to the information of the packages of information; a server configured to transmit the plurality of packages of information to at least one electronic communication device.
 18. The system of claim 17, wherein the at least one electronic communications device comprises an electronic communications device of an incident commander.
 19. The system of claim 18, further comprising the electronics communications device of the incident commander, and wherein the incident commander package includes program instructions to configure the electronics communications device of the incident commander to provide for transfer of the packages of information to other electronic communication devices, along with tokens allowing for access to the information of the packages of information.
 20. The system of 19, wherein the tokens include program instructions for configuring the electronic communications devices to transmit information of a role defined by information of a one of the packages received by the electronic communication devices, and information relating to users of the electronic communication devices; and wherein the server is further configured to receive the information transmitted by the electronic communication devices and to generate information of an organizational chart of the hierarchical organization, includes roles filled in the hierarchical organization and information relating to the users, and wherein the server is further configured to transmit the information of the organizational chart to the electronic communication devices.
 21. The system of 19, wherein the tokens include program instructions for configuring the electronic communications devices to transmit information of a role defined by information of a one of the packages received by the electronic communication devices, and information relating to users of the electronic communication devices; and wherein the server is further configured to receive the information transmitted by the electronic communication devices and to generate information of an organizational chart of the hierarchical organization, includes roles filled in the hierarchical organization and information relating to the users, and wherein the server is further configured to distribute the information of the organizational chart. 